Esterase Activity in Leukocytes Demonstrated by the Use of Naphthol as-D Chloroacetate Substrate

Moloney, William C.; McPherson, Kenneth; Fliegelman, Lila

doi:10.1177/8.3.200

Cited by 363 publications

(103 citation statements)

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“…Frozen sections from normal and rheumatoid synovial tissue and cytocentrifuge preparations of cells obtained from normal and rheumatoid synovial specimens were investigated for the presence of acid alpha-naphtyl acetate esterase (ANAE) (22), naphthol AS-D acetate esterase (NASDAE), inhibitable by sodium fluoride (NaF) (23,24), and naphthol AS-D chloroacetate esterase (NASDCAE) (25). ATPase staining was performed on normal suspended synoviocytes (26).…”

Section: Sources Of Tissuementioning

confidence: 99%

Immune functions of human synovial cells. phenotypic and t cell regulatory properties of macrophage‐like cells that express hla–dr

Klareskog

Forsum

Kabelitz

et al. 1982

Arthritis & Rheumatism

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Section: Sources Of Tissuementioning

confidence: 99%

Immune functions of human synovial cells. phenotypic and t cell regulatory properties of macrophage‐like cells that express hla–dr

Klareskog

Forsum

Kabelitz

et al. 1982

Arthritis & Rheumatism

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“…To visualize mast cells, frozen sections were air-dried for ϳ30 min, post-fixed in ice-cold acetone for 10 min, rinsed in PBS, and then stained in either Toluidine blue (a metachromatic dye for mast cells, made up as 0.1% Toluidine blue O (Sigma) in 1% sodium chloride, pH 2.3), Csaba stain (Alcian blue/Safranin O, an amine/heparin stain for mast cells, made up as 0.36% Alcian blue (Sigma), 0.018% Safranin O (Sigma) in acetate buffer, pH 1.42), or by using an enzymatic reaction with naphthol AS-D chloroacetate esterase (Sigma) to detect chymase activity (16), then counterstained with Gill's hematoxylin or DAPI. For inhibitor-localization, frozen sections were prepared as above, then incubated overnight with 50 nM ecotinPKal (10) biotinylated with Sulfo-NHS-LC-LC biotin (EZ-Link, Pierce), followed by 1-h incubation with Alexa 488-conjugated streptavidin (Invitrogen).…”

Section: Methodsmentioning

confidence: 99%

“…Plasma Kallikrein Specifically Localizes to Mast Cell Granules-To determine the subcellular localization of ecotinPKal in mast cells, we co-stained cells for chymase activity using naphthol chloroacetate esterase, a marker of mast cell granule chymase that appears red in both brightfield and fluorescent microscopy (16). PKal localized to the cytoplasmic granules of mast cells in wild-type mice (Fig.…”

Section: Ecotin-pkal Is Specific For Human and Mouse Plasmamentioning

confidence: 99%

Active Plasma Kallikrein Localizes to Mast Cells and Regulates Epithelial Cell Apoptosis, Adipocyte Differentiation, and Stromal Remodeling during Mammary Gland Involution

Lilla

Joshi

Craik

et al. 2009

Journal of Biological Chemistry

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The plasminogen cascade of serine proteases directs both development and tumorigenesis in the mammary gland. Plasminogen can be activated to plasmin by urokinase-type plasminogen activator (uPA), tissue-type plasminogen activator (tPA), and plasma kallikrein (PKal). The dominant plasminogen activator for mammary involution is PKal, a serine protease that participates in the contact activation system of blood coagulation. We observed that the prekallikrein gene (Klkb1) is expressed highly in the mammary gland during stromal remodeling periods including puberty and postlactational involution. We used a variant of ecotin (ecotin-PKal), a macromolecular inhibitor of serine proteases engineered to be highly specific for active PKal, to demonstrate that inhibition of PKal with ecotinPKal delays alveolar apoptosis, adipocyte replenishment, and stromal remodeling in the involuting mammary gland, producing a phenotype resembling that resulting from plasminogen deficiency. Using biotinylated ecotin-PKal, we localized active PKal to connective tissue-type mast cells in the mammary gland. Taken together, these results implicate PKal as an effector of the plasminogen cascade during mammary development.The plasminogen cascade of serine proteases regulates both development and tumorigenesis in the mammary gland (1, 2). The ultimate effector in this cascade, plasminogen as its active form, plasmin, is mediated by an intricate cascade of plasminogen activators and protease inhibitors. Plasminogen-deficient mice exhibit significant defects in lactational competence and post-lactational mammary gland involution (2), the process by which the differentiated, lactating gland remodels after the cessation of lactation to a state approaching that of the non-pregnant animal. The effect of plasminogen loss is exacerbated after a round of pregnancy and lactation: plasminogen-null mammary glands have poorly developed secretory alveoli during lactation, and upon involution, never fully involute. Instead, the secretory alveoli fail to regress normally. Moreover, the stroma becomes fibrotic and is cleared incompletely of partially degraded epithelial basement membrane. Because plasminogen-deficient mice largely are unable to support a second round of pregnancy and lactation (2), this suggests that the involution defect is not overcome by activities of other proteases eventually. These studies establish plasminogen as a crucial protease in normal mammary gland biology.Plasminogen is synthesized in the liver and circulates as a zymogen through blood plasma to all vascularized tissues of the body. As this expression and circulation are constant,

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“…Histochemical stain for the chloroacetate esterase (Leder) stain was performed. 30 Immunohistochemical stains were performed for CD3, CD20, myeloperoxidase (DAKO) and CD34 (Navocastra) on the above-mentioned selected slides. The immunoperoxidase technique with microwave antigen retrieval was used.…”

Section: Methodsmentioning

confidence: 99%

The Value of CD34, Myeloperoxidase and Chloracetate Esterase (Leder) Stain in the Diagnosis of Granulocytic Sarcoma

Mourad

Kfoury

2001

Annals of Saudi Medicine

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Background:The differentiation of extramedullary myelogenous leukemia/granulocytic sarcoma (GS) from malignant lymphoma can sometimes be difficult. In the current study, we explored the value of CD34, myeloperoxidase and nonspecific esterase (Leder) stains in differentiating GS from lymphomas. Materials and Methods: Fifteen cases of phenotypically confirmed GS were stained for CD34, myeloperoxidase and Leder stains. The same stains were performed in 16 malignant lymphomas as controls. The GS cases were also immunostained for CD3 and CD20 to detect the incidence of aberrant T and B lymphocyte expression. Results: CD34 was expressed in 7 of the 15 cases of GS (46%). Myeloperoxidase was expressed in 10 of the 15 cases (66%), and Leder stain was positive in 9 cases (60%). All 15 cases had expression of at least one marker; 8 cases had expression of two markers and one case had expression of all 3 markers. None of the lymphomas showed expression of any of the three markers. Five cases (35%) of GS showed T cell antigen expression and 2 (14%) showed B cell antigen expression. Conclusion: Our findings suggest that in cases of GS, the use of the combination of CD34, myeloperoxidase and Leder stains can help reach a definitive diagnosis, especially if lymphoma is difficult to exclude. Expression of B and T cell antigens in such lesions should not rule out the diagnosis of GS.

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Esterase Activity in Leukocytes Demonstrated by the Use of Naphthol as-D Chloroacetate Substrate

Cited by 363 publications

References 0 publications

Immune functions of human synovial cells. phenotypic and t cell regulatory properties of macrophage‐like cells that express hla–dr

Immune functions of human synovial cells. phenotypic and t cell regulatory properties of macrophage‐like cells that express hla–dr

Active Plasma Kallikrein Localizes to Mast Cells and Regulates Epithelial Cell Apoptosis, Adipocyte Differentiation, and Stromal Remodeling during Mammary Gland Involution

The Value of CD34, Myeloperoxidase and Chloracetate Esterase (Leder) Stain in the Diagnosis of Granulocytic Sarcoma

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